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opposite and equal force against you.
You have not provided a sensible question, so it is not possible to provide a sensible answer. If the object is on a horizontal surface, or in free fall, the answer is no. If the object is on an inclined surface, the answer is yes. You can, for example, push a bicycle uphill. The force you exert is mainly horizontal, but the bike goes upwards.
If the stick is just sitting there, it doesn't exert any force at all. If you're swinging the stick, the shape of the stick won't matter much; the force will be determined by the speed and mass of the stick. If you are poking with the stick, then the FORCE will be the same whether it is blunt or pointed - but a pointed stick will concentrate the force into a smaller AREA, so the force per area will be a lot higher with a sharp stick than with a blunt one.
do you exert more force when you are further from the fulcrum
Since the object is moving at a constant speed, the net force on it must be zero.If I'm applying a constant horizontal force, then the frictional force must be equal to my force = 600N and in the opposite direction to my force.
The objects with bigger masses exert more pulling force. However, even though all the matter around us exert a force, their masses are too small for them to exert a 'feelable' force. But yes, they do exert a force, but its negligible.
The force that you exert on a lever can be called the effort force. The lever has three parts. They are: the fulcrum, the load, and the effort force. This can also be classified as the input force. The force that you exert to perform a task is known as the input force.
input force
They exert Gravitational Force on each other. It is a force which is directly proportional to Mass of the object
Both, you exert a force onto the sidewalk, and the sidewalk "pushes back" with an equal, but opposite force.
You exert force when you pull on anything.
You exert force when you pull on anything.